Sometimes trying to make an HF antenna fit into your backyard is like trying to make a size 14 woman fit into a size 8 dress... Some things are just not meant to be. Enters the magnetic loop. It's fairly small, decently efficient (I hope), and fairly easy to build. There is no free lunch, especially when it comes to the laws of physics, so something has to give. For one, they produce voltages and RF that will fry your pacemaker in a heartbeat (your last..). Bandwidth is as thin as an airplane sandwich and they require expensive high voltage variable capacitors, air type (if you're lucky), vacuum (if you're rich).

I decided to build one out of 1" copper tubing. It worked very well for my Slim Jim 2m antenna, so I have high hopes for the magnetic loop. Most of the information came from Frank (N4SPP), and I thank him profusely here for writing his excellent article: http://www.nonstopsystems.com/radio/frank_radio_antenna_magloop.htm. He even sent me screen shots of the RJELOOP1 software used to calculate all the loop parameters. I later was able to run it on my Mac using DOSBOX, a DOS emulator. The software was designed by the late Reg Edwards, UK Amateur Radio Station G4FGQ and can be found here: http://www.zerobeat.net/G4FGQ/page3.html.

I wondered how big I should make it. My requirements were only that it fits through a regular door frame and covers 40m. It just happens that a 6'3" tall loop works perfectly for 40/30/20m!

Here are the results:40m:30m:20m:Notice how efficiency improves when the loop is raised only a few feet (second floor..) 40m:

Not sure, it's 21' of 1" tubing plus 45deg elbows. I have a torch, solder is pricey too, but I don't think it would be too much. Much much less than the MFJ antenna in any case.What's needed for the antenna is four 5' 1" tubes. You cut them in half to make the eight 2.5' segments. I have two ferrites for feeding the loops.

The magnetic loop is up! I went to Home Depot today and bought four 5' lengths of 3.4" copper tubing, as well as eight 45deg elbows. It took me a few hours but it works! One thousand mile QSO with a RST of 559 tonight! The toroid core takes four turns of 14ga wire for best SWR, which varies between 1.2:1 to 2:1. the tunig is extremely touchy. I wish I could have afforded a multi-turn variable capacitor.. The loop has a 6ft. diameter. I put a coupling on the bottom, so it can be disassembled in two pieces. The capacitor comes off too. I can change polarization simply by putting it on it's side. It does seem less noisy than my verticals. I haven't tried it on 20m, only 40 and 30. The band isn't great tonight, but the first test is a success!

559 on forty into Kanses aith 14 Watts max, using an indoor, homebrew magnetic loop. . . That is really excellent proof that it's doing it's job and radiating well. Any change to prop it up outside on the balcony?

>de RadioRay ..._ ._

Logged

"When we cannot do the good we would, we must be ready to do the good we can." ~ Matthew Henry

I could definitely put it on the deck outside, second floor, which runs North/South. Unfortunately, it does not tune on 20m The capacitor I am using has a minimum capacitance of 9pf (9-110fp) and it might not be low enough. I get 5:1 SWR minimum. Fortunately, I have another toroid core and a 5-37pf air variable capacitor, so all I need now is two 5' lengths of tube and eight elbows

You know - a two way contact with Russia from the southern united States would be good enough with 100 Watts and a full sized dipole up 60 feet, but doing it with a home made 6 Watt transceiver into a home made magnetic loop, located inside of your home - that's excellent!

It also seems that the loop might have dramitically improved your signal to noise ratio on receive and that's critical - especially in an urban environment.

73 de RadioRay ..._ ._

Logged

"When we cannot do the good we would, we must be ready to do the good we can." ~ Matthew Henry

The big loop works so well, I have decided to build two more! One for 15/17/20m (10' perimeter) and one for 6/10/11m (4.5' perimeter). They will be made of soft copper tubing and thus have a nice round shape. Feeding will be through FT-140-43 toroids, though FT-140-31 would be better.. For the medium loop, I want to use the same capacitor as my big loop, 9-110pf. For the small loop, ideally, 5-70pf or something like that.. I will post the calculations later. I plan on using PVC water pipes for the handle/frame. The feeding will be at the top and capacitor at the bottom. This way the loops can be hand-held and the capacitor turned with the thumb. At the top I will have a 90deg elbow with maybe 6" of tubing ended by a BNC plug to extend the feeding line away from the loop. Not sure if that's the best way to go, and I might feed at the bottom.. More on that later.. The small loop will probably be fed at the bottom and made to plug directly into my Gonset Communicator case...

These two antennas will be cheaper than the big loop. No elbows to buy, little soldering, and for the small loop, a smaller capacitor. I just ordered the toroids..

I am also looking for a 300pf 2500V capacitor to use in parallel with the air capacitor on my big loop and tune 80m. Performance will be low, but at least it will work!